hydraulic architecture

简明释义

水工建筑

英英释义

例句

1.The design of the dam is a prime example of hydraulic architecture, or 水利建筑, showcasing engineering ingenuity.

这座大坝的设计是水利建筑的一个典范，展示了工程的巧妙。

2.Understanding hydraulic architecture, or 水利建筑, is crucial for civil engineers working on water management projects.

了解水利建筑对从事水资源管理项目的土木工程师至关重要。

3.The ancient Romans were pioneers in hydraulic architecture, or 水利建筑, using aqueducts to transport water over long distances.

古罗马人在水利建筑方面是先驱，他们利用高架渠将水长距离运输。

4.Modern cities often rely on hydraulic architecture, or 水利建筑, to manage stormwater effectively.

现代城市常常依赖于水利建筑来有效管理雨水。

5.In Venice, the city's hydraulic architecture, or 水利建筑, integrates canals into its urban landscape.

在威尼斯，这座城市的水利建筑将运河融入其城市景观中。

作文

The term hydraulic architecture refers to the design and construction of structures that utilize water as a fundamental element in their functionality. This concept is not only about creating buildings that are aesthetically pleasing but also about integrating water management systems into architectural designs. The ancient civilizations, such as the Romans and the Persians, were pioneers in this field, demonstrating how hydraulic architecture could be used to improve urban living conditions. They built aqueducts, fountains, and baths that showcased their engineering prowess while enhancing the quality of life for their inhabitants.In modern times, hydraulic architecture has taken on new meanings and applications. With the increasing focus on sustainability and environmental conservation, architects are now looking at how water can be used more effectively in urban settings. For instance, rainwater harvesting systems, green roofs, and permeable pavements are all examples of hydraulic architecture that aim to manage stormwater and reduce runoff. These innovations not only help to mitigate flooding but also contribute to the overall health of urban ecosystems.Moreover, hydraulic architecture plays a crucial role in climate resilience. As cities face the challenges of rising sea levels and extreme weather events, incorporating water management systems into urban planning becomes essential. Structures designed with hydraulic architecture principles can help absorb excess water during heavy rainfall, thus preventing damage to infrastructure and protecting communities.The aesthetic aspect of hydraulic architecture cannot be overlooked either. Water features such as ponds, waterfalls, and reflective pools add beauty and tranquility to public spaces. They create environments that promote relaxation and social interaction, enhancing the overall experience of urban life. Architects and landscape designers often collaborate to integrate these elements seamlessly into their projects, making water a central theme in their designs.Furthermore, hydraulic architecture can also be seen in the context of historical preservation. Many ancient hydraulic structures have been preserved and serve as significant cultural landmarks. These sites provide insight into the engineering techniques of the past and highlight the importance of water management in historical contexts. By studying these structures, modern architects can draw inspiration and learn valuable lessons about sustainable practices that have stood the test of time.In conclusion, hydraulic architecture encompasses a wide range of practices and principles that emphasize the importance of water in architectural design. From ancient aqueducts to modern sustainable systems, the integration of water management in architecture is vital for enhancing urban living conditions, promoting sustainability, and preserving cultural heritage. As we move forward, it is essential for architects and urban planners to continue exploring innovative ways to incorporate hydraulic architecture into their designs, ensuring that our cities remain resilient, beautiful, and functional for generations to come.

“水利建筑”一词指的是利用水作为其功能基础元素的结构设计与建造。这个概念不仅仅是创造美观的建筑，而是将水管理系统整合到建筑设计中。古代文明，如罗马人和波斯人，是这一领域的先驱，展示了如何使用“水利建筑”来改善城市生活条件。他们建造了引水道、喷泉和浴室，展示了他们的工程才能，同时提升了居民的生活质量。在现代，“水利建筑”有了新的含义和应用。随着对可持续性和环境保护的日益关注，建筑师们开始关注如何在城市环境中更有效地利用水。例如，雨水收集系统、绿色屋顶和透水铺装都是旨在管理雨水和减少径流的“水利建筑”的例子。这些创新不仅有助于减轻洪水风险，还对城市生态系统的整体健康做出了贡献。此外，“水利建筑”在气候适应性方面也发挥着至关重要的作用。随着城市面临海平面上升和极端天气事件的挑战，将水管理系统纳入城市规划变得至关重要。采用“水利建筑”原则设计的结构可以在强降雨期间吸收多余的水，从而防止基础设施受损并保护社区。“水利建筑”的美学方面也不容忽视。池塘、瀑布和反射池等水景增添了公共空间的美感与宁静。它们创造了促进放松和社会互动的环境，增强了城市生活的整体体验。建筑师和景观设计师通常会合作，无缝地将这些元素融入他们的项目中，使水成为设计的核心主题。此外，“水利建筑”还可以在历史保护的背景下看到。许多古老的水利结构得以保存，并作为重要的文化地标存在。这些遗址提供了对过去工程技术的深入了解，并突显了水管理在历史背景中的重要性。通过研究这些结构，现代建筑师可以获得灵感，学习经得起时间考验的可持续实践的重要经验。总之，“水利建筑”涵盖了一系列强调水在建筑设计中重要性的实践和原则。从古代引水道到现代可持续系统，水管理的整合对于提升城市生活条件、促进可持续发展和保护文化遗产至关重要。随着我们向前发展，建筑师和城市规划者必须继续探索将“水利建筑”融入设计的创新方式，确保我们的城市在未来几代人中保持韧性、美丽和功能性。